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In view of the rapid growth in both experimental and theoretical studies of multiphoton processes and multiphoton spectroscopy of atoms, ions and molecules in chemistry, physics, biology, materials science, etc., it is desirable to publish an Advanced Series that contains review papers readable not only by active researchers in these areas, but also by those who are not experts in the field but who intend to enter the field. The present series attempts to serve this purpose. Each review article is written in a self-contained manner by the experts in the area so that the readers can grasp the knowledge in the area without too much preparation.It is hoped that the collection of topics in this volume will be useful not only to active researchers but also to other scientists in biology, chemistry, materials science and physics.
A self-contained treatment of the latest fluorescence applications in biotechnology and the life sciences This book focuses specifically on the present applications of fluorescence in molecular and cellular dynamics, biological/medical imaging, proteomics, genomics, and flow cytometry. It raises awareness of the latest scientific approaches and technologies that may help resolve problems relevant for the industry and the community in areas such as public health, food safety, and environmental monitoring. Following an introductory chapter on the basics of fluorescence, the book covers: labeling of cells with fluorescent dyes; genetically encoded fluorescent proteins; nanoparticle fluorescence...
This work focuses on complementary crystallographic and spectroscopic areas of dynamic structural science, from papers presented at the 46th NATO sponsored course in Erice, Sicily 2013. These papers cover a range of material from background concepts to more advanced material and represent a fully inter-disciplinary collection of the latest ideas and results within the field. They will appeal to practising or novice crystallographers, both chemical and biological, who wish to learn more about modern spectroscopic methods and convergent advances and hence vice versa for experimental and computational spectroscopists. The chapters refer to the latest techniques, software and results and each chapter is fully referenced. The volume provides an excellent starting point for new comers in the emerging, multi-disciplinary area of time resolved science.
This book highlights the latest experimental and theoretical developments in the field of femtochemistry, with papers describing the physics and chemistry of ultrafast processes in small molecules, complex molecular systems, clusters, biological systems, solids, matrices, liquids and at surfaces and interfaces. The recent developments in frequency-domain studies of femtodynamics are also presented. In addition, the latest achievements in femtosecond control of chemical reactions are presented, together with the newest techniques in real-time probing of reactions such as ultrafast x-ray or electron diffraction. The papers are rich in references giving a clearcut state-of-the-art of the topics being discussed. The book should be a valuable tool to all persons in the field and to young scientists.Contributors include: A H Zewail, J Jortner, V S Letokhov, J Manz, R S Berry, C Wittig, K B Eisenthal, A W Castleman Jr., J T Hynes, W H Gadzuk, R Kosloff, S Mukamel, K R Wilson; G Fleming, D Wiersma, K Yoshihara, V Sundström, A Apkarian, N Scherer, A Myers, R Schinke, J R Huber, R B Gerber, G Gerber and P M Champion.
This timely volume provides a review of fundamental radiation chemical processes and their relationship to several high technology industries. It demonstrates the significance of polymer radiation chemistry in industries such as electronics, aerospace, and optical recording. Six review chapters and nine reports provide an in-depth look into fundamental radiation chemistry, recent advances in spectroscopic methods, applications of radiation-modified polymers in electronics and microlithography, and resistance of polymers to radiation. Research studies include polymer reaction to radiation at the molecular level, energy dissipation pathways, microscopic properties of polymers, structure-property correlations, development of polymers for imaging at submicrometer resolution, and more.
The bienal IUPAC World Polymer Congresses provide a special opportunity for scientists to meet each other and to become aware of developments and progress in other contries. The contributions cover literally every aspect of polymer science and technology. Major emphasis was on Polymer Science and Industry, Radiation Chemistry and Polymers, Polymer Education, Characterization, Polymer Synthesis, Polymers for New Technologies, Polymers, the Environment and Health Issues, Structure and Properties, Engineering Polymers, Theory and Modelling of Polymer Systems, Films, Surfaces and Interfaces, Novel Polymers, Polymer Colloids, Rheology and Processing, and Polymer Photophysics and Photochemistry